Geoptics landscape apparency : a dynamic visual resource indicator and tool for multi-functional landscape planning

Forest managers must consider visual quality objectives to meet public expectations for use and enjoyment of forest landscapes. These applications of visual constraints have been criticized for being overly restrictive, and for causing a lack of opportunity for appropriate development. At the same t...

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Main Author: Fairhurst, Kenneth Barton
Language:English
Published: University of British Columbia 2010
Online Access:http://hdl.handle.net/2429/28006
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spelling ndltd-LACETR-oai-collectionscanada.gc.ca-BVAU.-280062013-06-05T04:18:59ZGeoptics landscape apparency : a dynamic visual resource indicator and tool for multi-functional landscape planningFairhurst, Kenneth BartonForest managers must consider visual quality objectives to meet public expectations for use and enjoyment of forest landscapes. These applications of visual constraints have been criticized for being overly restrictive, and for causing a lack of opportunity for appropriate development. At the same time, inadequate planning and design can cause unnecessary visual impacts in the landscape. Past studies of visual vulnerability, visual magnitude, and angle of visual incidence have attempted to identify relative risk of visual impact. A new approach was sought that might help alleviate those problems, and improve the ability to forecast, model, and manage that risk. Perspectival variability affects how the landscape is seen, and poses complex challenges in the planning and management of visual resources. Therefore, a dynamic and quantitative approach to landscape classification was developed to provide greater understanding and control from multiple viewpoints. A landscape illumination mapping technique in a three-dimensional terrain model was applied as an analog for viewing from multiple viewpoints. The intensity of illumination, termed cumulative landscape apparency, provided an indicator of relative risk of visual impact for each grid cell in the landscape model. The model was validated internally through tests and applications and externally through focus group testing. Apparency can provide a new, reliable, geographic information system-based inventory measure that will help guide resource planning, design, and integration. It has been shown to offer a potential enhancement to visual landscape inventory, and is expected to be useful to land managers without a strong background in visual resource management, by reducing their reliance on experts and increasing their success in meeting visual quality objectives relative to current planning methods. Apparency was shown to reveal inherent patterns in the landscape that would be useful for differentiating areas requiring greater and lesser attention, improving harvest design outcomes, and partially automating or guiding the design. The knowledge gained in testing apparency for its relation to plan-to-perspective analysis can potentially provide an indicator for refining resource supply questions. Geoptics is expected to be applicable to a wide array of visual resource management and resource planning mechanisms in BC and other jurisdictions.University of British Columbia2010-08-31T17:28:17Z2010-08-31T17:28:17Z20102010-08-31T17:28:17Z2010-11Electronic Thesis or Dissertationhttp://hdl.handle.net/2429/28006eng
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language English
sources NDLTD
description Forest managers must consider visual quality objectives to meet public expectations for use and enjoyment of forest landscapes. These applications of visual constraints have been criticized for being overly restrictive, and for causing a lack of opportunity for appropriate development. At the same time, inadequate planning and design can cause unnecessary visual impacts in the landscape. Past studies of visual vulnerability, visual magnitude, and angle of visual incidence have attempted to identify relative risk of visual impact. A new approach was sought that might help alleviate those problems, and improve the ability to forecast, model, and manage that risk. Perspectival variability affects how the landscape is seen, and poses complex challenges in the planning and management of visual resources. Therefore, a dynamic and quantitative approach to landscape classification was developed to provide greater understanding and control from multiple viewpoints. A landscape illumination mapping technique in a three-dimensional terrain model was applied as an analog for viewing from multiple viewpoints. The intensity of illumination, termed cumulative landscape apparency, provided an indicator of relative risk of visual impact for each grid cell in the landscape model. The model was validated internally through tests and applications and externally through focus group testing. Apparency can provide a new, reliable, geographic information system-based inventory measure that will help guide resource planning, design, and integration. It has been shown to offer a potential enhancement to visual landscape inventory, and is expected to be useful to land managers without a strong background in visual resource management, by reducing their reliance on experts and increasing their success in meeting visual quality objectives relative to current planning methods. Apparency was shown to reveal inherent patterns in the landscape that would be useful for differentiating areas requiring greater and lesser attention, improving harvest design outcomes, and partially automating or guiding the design. The knowledge gained in testing apparency for its relation to plan-to-perspective analysis can potentially provide an indicator for refining resource supply questions. Geoptics is expected to be applicable to a wide array of visual resource management and resource planning mechanisms in BC and other jurisdictions.
author Fairhurst, Kenneth Barton
spellingShingle Fairhurst, Kenneth Barton
Geoptics landscape apparency : a dynamic visual resource indicator and tool for multi-functional landscape planning
author_facet Fairhurst, Kenneth Barton
author_sort Fairhurst, Kenneth Barton
title Geoptics landscape apparency : a dynamic visual resource indicator and tool for multi-functional landscape planning
title_short Geoptics landscape apparency : a dynamic visual resource indicator and tool for multi-functional landscape planning
title_full Geoptics landscape apparency : a dynamic visual resource indicator and tool for multi-functional landscape planning
title_fullStr Geoptics landscape apparency : a dynamic visual resource indicator and tool for multi-functional landscape planning
title_full_unstemmed Geoptics landscape apparency : a dynamic visual resource indicator and tool for multi-functional landscape planning
title_sort geoptics landscape apparency : a dynamic visual resource indicator and tool for multi-functional landscape planning
publisher University of British Columbia
publishDate 2010
url http://hdl.handle.net/2429/28006
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